ADJUSTABLE KEYBOARD STAND
Technical Field
The present invention relates to support assemblies and, in particular, relates to an adjustable keyboard stand.
Background Art
In an office environment, computers are typically used for everyday office tasks, such as word processing. Data entry involves the use of a keyboard to enter information into a computer. Conventional desks or tables are often too high for ergonomic placement of keyboards. Some offices tend to purchase specially designed desks or tables for computers, which can increase overhead costs associated with running a business. Keyboard trays or stands are a desirable low cost alternative. Some keyboard stands are adjustable in height so as to accommodate different users.
Some prior art adjustable keyboard stands are adjustable on discrete components. In one instance, US Patent No. 5,692,712 illustrates an adjustable keyboard platform attached to a relatively large mounting post having rigid corners with serrated teeth that are discretely positioned along the length of the mounting post. The platform armature locks into the serrated teeth for vertical height adjustment. Unfortunately, this particular prior art mounting post can be inconvenient to operate and difficult to manipulate for level height adjustment. For example, the platform armature can easily become cockeyed during manipulation where one side of the platform armature is positioned on a higher serrated tooth than the other side. This promotes a lopsided keyboard platform and discomfort for the user. Also, vertical height adjustment can be inconvenient in that some users may have a hard time trying to level out the platform during manipulation' and lining up of the serrated teeth. Other prior art keyboard stands have a variety of different attachment mechanisms, such screws and bolts, which
often have to be manipulated in order to adjust the stand to a desired vertical height above the ground and also to adjust the tilt angle of the keyboard for the preferences of an individual user. Often times, these fasteners may become difficult to manipulate which makes the adjustment process more cumbersome. US Patent No. 5,211,367 illustrates this cumbersome task of keyboard platform adjustment. As illustrated, the platform armature has many joints with each having a plurality of locking members that have to be disengaged from underneath the table prior to adjusting the height or orientation of the keyboard tray. Unfortunately, this particular adjustable keyboard tray is inconvenient to use or operate because a user has to crawl underneath the table disengage the locking members, then sit back down while holding the keyboard tray so as to adjust it to the appropriate height or orientation, and then crawl back underneath the table to re-engage the locking members while holding the keyboard tray in the appropriate position. As a result, this adjustable keyboard tray is inconvenient to operate or use for most people.
Therefore, from the foregoing, there currently exists a need for an improved keyboard stand that is readily adjustable and convenient to operate. To this end, there also currently exists a need for a more convenient height adjustment mechanism for a keyboard platform that is easily manipulated by users.
Disclosure of the Invention
The aforementioned needs may be satisfied by an adjustable keyboard device comprising a keyboard platform which receives a keyboard and a mounting assembly which mounts to a piece of furniture, the mounting assembly including a mounting component having two sidewalls and a rear wall that defines a recess that extends in a first direction having a vertical component wherein the mounting
component defines an opening positioned between the sidewalls opposite the rear wall that extends in the first direction.
In one embodiment, the adjustable keyboard device may further comprise a support member having a first and a second end, wherein the first end of the support member is attached to the keyboard platform, and wherein the second end of the support member is positioned within the recess in the mounting component so as to be slidably and pivotally movable therein. In one aspect, the weight of the support member and the keyboard platform pivots the second end of the support member in a first direction within the recess such that the second end of the support member engages with the rear wall of the recess to maintain the support member at a first vertical location, and wherein the vertical location of the support member can be changed by exerting force on the keyboard platform that induces the support member to pivot in a second direction so as to disengage the second end of the support member from the rear wall of the recess to thereby permit free sliding motion of the second end of the support member in the recess.
In another embodiment, the sidewalls of the mounting component further comprise a pair of channels, and wherein the support member includes a plurality of protrusions that are spaced from the second end such that the protrusions are positioned within the channels so as to define a pivot axis of the support member with respect to the recess. The adjustable keyboard device may further comprise a tilt adjustment assembly that permits adjustment of a tilt angle of the keyboard platform, wherein the tilt adjustment assembly comprises a shaft and a spring that are interposedly attached between the keyboard platform and the support member so as to define the tilt angle. In one aspect, the tilt adjustment assembly further comprises a knob that is threadably attached to the shaft, and wherein the knob can be actuated to increase or decrease the tilt angle of the keyboard platform. In another aspect, the spring produces a
biased tension between the keyboard platform and the support member, and wherein the tension can be increased or decreased depending on the position of the knob with respect to the shaft. The aforementioned needs may also be satisfied by an adjustable stand comprising a mounting bracket attached to a structure and a securing member having an upper section that is rotatably attached to the mounting bracket so as to allow the securing member to rotate with respect to the structure, the securing member having first and second sidewalls and a rear wall that are joined together so as to form an opening with an interior recessed region, wherein the first and second sidewalls each comprise an interior surface having at least one channel formed thereon. In one embodiment, the adjustable stand may comprise a platform having an upper surface adapted to receive a keyboard instrument and a lower surface. In addition, the adjustable stand may comprise a support armature having a first end adapted to be pivotally mounted on the lower surface of the platform and a second end having a plurality of protrusions extending therefrom and stop member attached thereto, wherein the second end is adapted to be positioned within the interior recessed region of the securing member adjacent the interior surface of the sidewalls so that the plurality of protrusions pivotally and slidably communicate with the channels to thereby allow the support armature to pivot about the protrusions and vertically move along the length of the channels, and wherein the stop member inhibits vertical movement of the support armature when engaged with the rear wall of the securing member, and wherein the stop member allows vertical movement of the support armature when disengaged from the rear wall of the securing member.
Brief Description of the Drawings These and other objects and advantages of the present invention will become more fully apparent from the following
description taken in conjunction with the accompanying drawings, in which:
Figure 1 is a perspective view of an adjustable keyboard stand according to an embodiment of the present invention; Figure 2 is an exploded perspective view of the adjustable keyboard stand of Figure 1;
Figures 3 and 4 are side views of the adjustable keyboard stand of Figures 1, 2;
Figure 5 is a perspective view of an adjustable keyboard stand according to another embodiment of the present invention;
Figures 6 and 7 are side views of the adjustable keyboard stand of Figures 5; and
Figures 8 and 9 are partial perspective view and side view of a tilt member employed in an adjustable keyboard stand according to another embodiment of the present invention .
Best mode for carrying out the Invention Reference will now be made to the drawings wherein like numerals refer to like parts throughout. An improved keyboard stand that is readily adjustable by a user will be described in greater detail herein below with reference to the drawings. Figure 1 illustrates one embodiment of an adjustable keyboard stand 100 having a platform member 102, a support member 104, a tilt member 106, a securing member 108 with a main body 155 and an upper head structure 157, and a mounting member 110. As illustrated in Figure 1, the adjustable keyboard stand 100 is adapted to be fixedly attached to the underside of the piece of furniture 115, such as a table or desk, which will be described in greater detail herein below. Also, the platform member 102 including the support member 104 is continuously adjustable along the length of the securing member in a manner as will be described in greater detail herein below.
In one embodiment, the platform member 102 comprises a substantially rectangular shape with flat upper and lower surfaces 120a, 120b. The lower surface 120b of the platform member 102 is pivotally attached to the support member 104 via a u-shaped bracket 124 and one or more bolts 126. The u- shaped bracket 124 is securely attached to the lower surface 120b of the platform member 102 using fasteners (not shown) , such as screws, in a generally known manner. In addition, the u-shaped bracket 124 is pivotally attached to a first end 130a of the support member 104 using one or more bolts 126 that function as a pivot juncture such that the platform member 102 readily rotates about the one or more bolts 126 with respect to the support member 104.
It should be appreciated that the platform member 102 can be adapted to receive a keyboard or keyboard instrument 117, such as those used with various types of computers, musical instruments, etc. In one aspect, the platform member 102 comprises a strong rigid material, such as wood, plastic, metal, etc., so as to provide a firm platform surface that can support the weight of the keyboard or keyboard instrument 117.
In one embodiment, as illustrated in Figure 1, the tilt member 106 comprises a shaft 140 and a spring 142 that are interconnected between a rear portion 128 of the platform member 102 and a mid-portion 130c of the support member 104. The shaft 140 is positioned central to the spring 142 such that the spring 142, in one aspect, winds around the exterior of the shaft 142. In addition, the shaft 140 is adapted to be connected to the platform member 102 in a generally known manner such that the spring 142 abuts the lower surface 120b of the platform member 102. Also, the shaft 140 extends through the support member 106 such that the spring 142 abuts an upper surface 132a of the support member 104. In one aspect, the tilt member 106 is spring biased so as to provide tension between the rear portion 128 of the platform member 102 and the mid-portion 130c of the support member 104.
As further illustrated in Figure 1, the tilt member 106 further comprises a knob 144 that is threadably attached to the post 140 such that the knob 128 can be screwed upward or downward so as to abut a lower surface 132b of the support member 104 and to adjust the tilt angle 146 of the platform member 102 against the tension of the spring 142. The spring produces a biased tension between the platform member 102 and the support member 104, wherein the tension can be increased or decreased depending on the position of the knob 144 with respect to the shaft 140. The tilt member 106 provides adjustment to a tilt angle 146 of the platform member 102. In one aspect, the tilt angle 146 is defined between the platform member 102 and the support member 104 with the vertex of the tilt angle 146 defined at the pivot juncture between the platform member 102 and the support member 104. Advantageously, the tilt angle 146 of the platform member 102 can be adjusted in relation to the support member 104 by readily twisting the knob 128.
In one embodiment, the support member 104 is adapted to be slidably attached to the securing member 108 in a manner that will be described in greater detail herein below. In addition, the securing member 108 is adapted to be slidably and rotatably attached to the mounting member 110 in a manner that will be described in greater detail herein below. Also, the mounting member 110 is adapted to be fixedly attached to the underside of the piece of furniture 115, such as a table or desk. It should be appreciated that the scope and functionality of the securing member 108 and the mounting member 110 will be described in greater detail herein below with reference to Figure 2.
Figure 2 illustrates an expanded view of the adjustable keyboard stand 100 of Figure 1. In one embodiment, the support member 104 comprises first and second protrusions 134a, 134b that extend outward from a second end 130b of the support member 104 in a substantially perpendicular manner so as to define a pivot axis. In one aspect, the pivot axis
allows the support member 104 to pivot with respect to the securing member 108 in a manner that will be described in greater detail herein below.
Also, the support member 104 further comprises a stop member 136 that is attached to the second end 130b of the support member 104 so as to be adjacent the protrusions 134a, 134b. The stop member 136 comprises first and second apertures 138a, 138b that are adapted to receive the first and second protrusions 134a, 134b, respectively, and allow the stop member 136 to be attached to the second end 130b of the support member 104. Also, the stop member 136 still further comprises an inclined end 148 that is adapted to engage with the securing member 108 in a manner as will be described herein below. It should be appreciated that, even though the stop member 136 is illustrated in Figure 2 as a separate part, the stop member 136 may be formed as an integral part of the support member 104 without departing from the scope of the present invention. Alternately, it should also be appreciated that the stop member 136 may be formed separately from the support member 104 and comprise a pliable material, such as rubber, having a high frictional coefficient for reasons that will be described in greater detail herein below. In addition, in one aspect, the stop member 136 may be permanently attached to the second end 130b of the support member 104 using various types of generally known adhesives, such as epoxy or glue, or fasteners, such as screws or bolts. Moreover, in another aspect, the stop member 136 may be slidably attached to the second end 130b of the support member 104 so as to be readily removable therefrom.
Moreover, the securing member 108 comprises first and second sidewalls 170a, 170b and a rear wall 172 that are joined together in a manner so as to define the main body 155 of the support structure 108 and a recess 160 formed therein that extends in a first direction 174a. The securing member 108 further defines first and second interior channels 162a,
162b within the recess 160 that extend along the length of the securing member 108. The securing member 108 further defines an opening 176 opposite the rear wall 170 that permits access to the recess 160. In one aspect, the second end 130b of the support member 104 is positioned within the recess 160 via the opening 176 formed in the securing member 108, as illustrated in Figure 1, so that the first and second protrusions 134a, 134b of the support member 104 slidably engage the first and second interior channels 162a, 162b, respectively.
Advantageously, the support member 104 vertically slides along the length of the securing member 108 via the interior channels so as to provide vertical movement for the platform member 102 with respect to the piece of furniture 115 that the adjustable keyboard stand 100 is mounted thereto. Also, the support member 104 is continuously adjustable along a vertical range of motion with respect to the interior channels 162a, 162b.
Additionally, the rounded or cylindrical shape of the protrusions 134a, 134b allow the support member 104 to pivot in a first pivotal direction 180 or in a second pivotal direction 182 that is opposite the first pivotal direction 180. The first and second protrusions 134a, 134b, when positioned with the first and second interior channels 162a, 162b, respectively, define the pivot axis. When the support member 104 is positioned within the recess 160 of the securing member 108, the support member 104 can be pivoted about the pivot axis in the first pivotal direction 180 so that the inclined end 148 of the stop member 136 abuts a back wall 172 of the securing member 108. Similarly, the support member 104 can be pivoted about the pivot axis in the second pivotal direction 182 so that the stop member 136 moves away from the back wall 172 of the securing member 108.
In one embodiment, the securing member 108 further comprises a lower end cap structure 164 that is adapted to be positioned in a lower opening 166 of the securing member 108.
Advantageously, the lower end cap structure 164 is attached to the securing member 108 so as to retain the second end 130b of the support structure 104 in the recess 160 of the securing member 108 to thereby inhibit the support structure 104 from falling away from the securing member 108. Also, the lower end cap structure 164 comprises a lip 168 that extends within at least a portion of the opening 176 formed in the support structure 108.
In one embodiment, the mounting member 110 is adapted to be mounted on the underside of the piece of furniture 115 via fasteners 152, such as screws or bolts, through apertures 150 formed in the mounting member 110. As illustrated in Figure 2, the mounting member 110 comprises lip structures 154 that define interior slotted regions 156 along the length of the mounting member 110. A first rectangular plate 158a having an extension nut 178a attached thereto is adapted to be slidably positioned within the slotted regions 156. In one aspect, the first rectangular plate 158a, when positioned within the slotted regions 156 of the mounting member 110, is slidable along the length of the mounting member 110 in the first direction 174a or a second direction that is opposite the first direction 174b. A second rectangular plate 158b is attached to the extension nut 178a with a fastening washer 178b in a generally known manner. The second rectangular plate 158b is positioned exterior to the slotted regions 156 of the mounting member 110 so as to provide a mounting surface 186 for the securing member to be mounted thereto.
Additionally, the upper head structure 157 of the securing member 108 is adapted to be mounted to the mounting surface 186 of the second rectangular plate 186 via fasteners 196, such as nuts and bolts. As illustrated in Figure 2, the positional orientation of the upper head structure 157 is slanted with respect to the main body 155 of the support structure 108. In addition, as illustrated in Figure 2, the positional orientation of the upper head structure 157 is aligned with the second rectangular plate 186. As
illustrated in Figure 1, the support structure 108 attaches to the mounting member 110 so that the upper head structure 157 is aligned with the mounting member 110 and the main body 155 slants away from the platform member 102. Advantageously, the positional orientation of the main body 155 with respect to upper head structure 157 and the mounting member 110 allows for more leg room for a seated individual using the adjustable keyboard stand 100. For this reason, the present teachings of the adjustable keyboard stand provide greater comfort for a user.
Advantageously, the securing member 108, when attached to the first rectangular plate 158a via the second rectangular plate 158b and the extension nut 178a, slides along the length of the mounting member 110 via the slotted regions 156. This allows the platform member 102, when attached to the mounting member 110 via the support member 104 and the securing member 108, to move towards and away from the piece of furniture 115 in the first and second directions 174a, 174b, respectively, when the mounting member 110 is attached to the piece of furniture. Moreover, this allows the platform member 102 to comprise more freedom of movement with respect to the piece of furniture.
In one aspect, the extension nut 178a is rotatable about the first or second rectangular plates 158a, 158b so that the securing member 108., when mounted to the mounting member 110, can readily rotate thereabout in a first rotational direction 198a or a second rotational direction that is opposite the first rotational direction 198a. Advantageously, this allows the platform member 102, when interconnected to the securing member 108 via the support member 104, to comprise more freedom of movement.
Figures 3 and 4 illustrate a side view of the adjustable keyboard stand 100 of Figures 1 and 2. In operation, the first and second protrusions 134a, 134b of the support member 104 are positioned within the first and second channels 162a, 162b of the securing member 108 so that the support member
104 can be vertically adjusted along the length or vertical component of the securing member 108. In one embodiment, the weight of the platform member 102, including the weight of the keyboard 117 positioned on the platform member 102, induces the stop member 136 to engage with the back wall 172 of the recess 160 formed in the securing member 108.
As illustrated in Figure 3, the weight of the platform member 102 including, in one aspect, the weight of the keyboard 117 induces the support member 104 to rotate in the first pivotal direction 180 thereby urging the stop member 136 against the back wall 172 of the recess 160 so as to inhibit the platform member 102 from moving in a first vertical direction 190. Advantageously, the stop member 136 comprises a highly frictional material that inhibits slippage of the support member 104 when the stop member 136 abuts the rear wall of the securing member 108.
Conversely, to move the platform member 102 in the first vertical direction 190 or a second vertical direction 192 that is opposite the first vertical direction 190 as illustrated in Figure 4, a user simply moves the platform member 102 so as to pivot the support member 104 in the second pivotal direction 182 to thereby disengage the stop member 136 from the back wall 172 of the securing member 108. Advantageously, this pivotal actuation enables the platform member 102 to be readily lifted or lowered to one of a plurality of desirable positions along the length of the securing member 104.
Figures 5 to 7 illustrate an adjustable keyboard stand 200 according to another embodiment of the present invention. The keyboard stand 200 according to the present embodiment has nearly the same construction as that of the adjustable keyboard stand 100 according to the previous embodiment, excepting some elements, only which will be described hereinafter . As shown in Figures 5 to 7, the keyboard stand 200 according to the present embodiment also includes a platform
member 102, a support member 104, a tilt member 106, a securing member 108 with a main body 155 and an upper head structure 157, and a mounting member 110.
In the present embodiment also, the platform member 102 comprises a substantially rectangular shape with flat upper and lower surfaces 120a, 120b, likewise in the previous embodiment. Instead of the u-shaped bracket 124 in the previous embodiment, a pair of separated brackets 224 are fixed to the lower surface 120b of the platform member 102. Each of the brackets 224 has a first pin hole 224a, in which a first pivot pin 226 of the support member 104 is rotatably inserted to rotatably interconnect the support member 104 and the platform member 102 as described later.
Similarly to the previous embodiment, the tilt member 106 includes a shaft 140 and a spring 142, which together that are interconnected between a rear portion 128 of the platform member 102 and a mid-portion 130c of the support member 104. However, in the present embodiment, the shaft 140 has a pair of snap hooks 241 which are integrally formed at a lower portion of the shaft 140 and separated from each other. The snap hooks 241 not only facilitates insertion of the shaft 140 into the knob 144 but also prevents the shaft 140 and the knob 144 from being separated after being assembled. The other elements of the tilt member 106 of the present embodiment has the same constructions as those of the previous embodiment.
In the present embodiment, the support member 104 includes a pair of second pivot pins 233 formed at side portions adjacent to the second end 130b, instead of the first and second protrusions 134a, 134b in the previous emebodiment. Each of the pivot pins 233 is inserted in a second pin hole 232a formed at a guide ear 232. In other words, a pair of guide ears 232 are assembled with the side portions adjacent to the second end 130b of the support member 104.
Further, in the present embodiment, the support member 104 includes a pair of fingers 231 formed integrally with the second end 130b of the support member 104, instead of the separate stop member 136 assembled with the second end 130b according to the previous embodiment. Each of the fingers 231 has a slant surface 248. Preferably, the slant surface 248 has the same inclination as the inclination of the inner surface of the back wall 172 of the securing member 108 or the inclination of a guide rail 263 formed on the inner surface of the back wall 172.
Further, similarly to the previous embodiment, the securing member 108 has first and second sidewalls 170a, 170b and a rear wall 172 that are joined together, and the first and second interior channels 162a, 162b each extending along the length of the securing member 108 are formed on inner surfaces of the first and second sidewalls 170a, 170b. However, in the present embodiment, as apparent from Figures 6 and 7, a guide rail 263 is further formed on an interior surface of the rear wall 172. The guide ears 232 are slidably inserted in and guided along the first and second interior channels 162a, 162b, respectively. The guide rail 263 formed on the interior surface of the rear wall 172 is inserted between the fingers 231 and allows the fingers 231 to be guided along the guide rail 263. The sliding engagements between the channels 162a, 162b and the guide ears 232 and between the guide rail 263 and the fingers 232 as described above enable the support member 104 to move and be guided more stably along the length of, and be supported more stably by the securing member 108. The other constructions than the constructions described above are the same as those according to the previous embodiment. Hereinafter, the operation of the adjustable keyboard stand 200 having the construction as described above will be described. The operation of the adjustable keyboard stand 200 is nearly the same as the operation according to the previous
embodiment. However, the guide ears 232 fixedly assembled with the side portions adjacent to the second end 130b of the support member 104 are slidably engaged with the first and second interior channels 162a, 162b, and the guide rail 263 formed on the interior surface of the rear wall 172 is inserted between the fingers 231 of the support member 104. Then, the weight of the platform member 102, including the weight of the keyboard 117 positioned on the platform member 102, induces the fingers 231 to engage with the back wall 172 of the recess 160 formed in the securing member 108. Here, since the slant surfaces 248 of the fingers 231 have the same inclination as the inclination of the inner surface of the back wall 172 of the securing member 108, a sufficient frictional force is exerted between the slant surfaces 248 and the inner surface of the back wall 172 to stably support the platform member 102 mounting the keyboard member thereon.
Meanwhile, when a user lifts up the platform member 102 only slightly, the support member 104 rotates in the second pivotal direction 182 to allow the slant surfaces 248 of the fingers 231 to be separated from the rear wall 172, as shown in Figure 7. That is, the engagement between the slant surfaces 248 of the fingers 231 and the interior surface of the rear wall 172 is released. As a result, a user can move the platform member 102 in the first vertical direction 190 or the second vertical direction 192 that is opposite the first vertical direction 190. After moving the platform member 102 to a desired level or position, the user may fit the guide rail 263 of the rear wall 172 between the fingers 231 to allow the slant surfaces 248 of the fingers 231 to be in tight contact with the interior surface of the rear wall 172. Then, the platform member 102 is stably supported at a desired level.
Figures 8 and 9 illustrate another tilt member 206 employed in another adjustable keyboard stand 300 according to another embodiment of the present invention. The keyboard stand 300 according to the present embodiment has nearly the
same construction as that of the adjustable keyboard stand 100 according to the previous embodiment, excepting some elements, only which will be described hereinafter.
As shown in Figures 8 and 9, the tilt member 206 according to the present embodiment includes a shaft 240 and a spring 242. The shaft 240 extends downward from the rear portion 128 of the platform member 102 and has a rack 240a formed at a lower portion of one side of the shaft 240. Further, the knob 144 has a knob shaft 144a fixed to a central portion of the knob 144. The knob shaft 144a has a pinion 240b formed integrally with the knob shaft 144a.
The knob shaft 144a is inserted transversely through the support member 104 from the left or right, in consideration of convenience for a user. A snap ring is fitted around a portion of the knob shaft 144a, which protrudes out of the support member 104 after being inserted through the support member 104, to prevent the knob shaft 144a from being separated from the support member 104. The spring 242 is disposed surrounding an upper portion of the shaft 240. The other constructions of the spring 242 are the same as those according to the previous embodiment.
The knob shaft 144a of the knob 144 extends through the mid-portion 130c of the support member 104 and is supported by the snap ring. The pinion 240b of the knob 144 is engaged with the rack 240a formed on one surface of the shaft 240.
In order to operate the tilt member 206, a user may rotate the knob 144 to rotate the pinion 240b. When the pinion 240b rotates, the pinion 240b relatively moves along the teeth of the rack 240a. The rotation or relative movement of the pinion 240b causes the support member 104 to actually move up or down. The spring 242 exerts a biased force to the tilt member 104, thereby ensuring the support member 104 to stably move and preventing the support member 104 from vibrating or becoming unstable during its movement. The construction of the tile member according to the present embodiment as described above prevents the knob 144
from being located at an excessively low position, and thus prevents a user' leg from coming into contact with (e.g., colliding with or being caught by) the knob 144 while the user uses the keyboard instrument 117, etc. Further, since the know 144 is located horizontally at one side -of the support member 104, a user can handle the knob 144 much easily.
Industrial Applicability Advantageously, the improved keyboard stand 100 is continuously adjustable along a vertical range of motion 190, 192. Readily adjusting the improved keyboard stand 100 to an appropriate height for use results in greater comfort and convenience for an individual using the stand 100 in combination with various keyboard instruments. In addition, the improved keyboard stand 100 of the present teachings can be easily and readily adjusted vertically 190, 192 without the manipulation of a rigid fastener or mounting bracket. Thus, in a manner as previously described and illustrated, the improved adjustable keyboard stand 100 of the present teachings is easier to manipulate than many prior art devices. Furthermore, the improved keyboard stand 100 of the present teachings comprises an adjustable tilt angle 146 for the platform member 102 through the use of the spring biased tilt member 106, which further increases the comfort and convenience for the user.
Although the foregoing description has shown, described and pointed out the fundamental novel features of the invention, it will be understood that various omissions, substitutions, and changes in the form of the detail of the apparatus as illustrated, as well as the uses thereof, may be made by those skilled in the art, without departing from the spirit or scope of the present invention. Consequently, the scope of the invention should not be limited to the foregoing discussion, but should be defined by the appended claims.